Your search keyword '"Florencia Ardon"' showing total 5 results

1. Fluid viscoelasticity promotes collective swimming of sperm

Author

Susan S. Suarez, Benedict B. Harvey, Florencia Ardon, Chungwei Lin, Alyssa G. Fiore, Mingming Wu, and Chih-kuan Tung

Subjects

0301 basic medicine, Male, Science, Acrylic Resins, Cell Communication, Biology, Buffers, 01 natural sciences, Viscoelasticity, Article, 03 medical and health sciences, Viscosity, Human fertilization, Cell Movement, 0103 physical sciences, Newtonian fluid, Elastic component, Animals, 010306 general physics, Multidisciplinary, urogenital system, Povidone, Anatomy, Mucus, Sperm, Spermatozoa, Elasticity, Biomechanical Phenomena, Solutions, 030104 developmental biology, Biophysics, Cluster size, Medicine, Cattle

Abstract

From flocking birds to swarming insects, interactions of organisms large and small lead to the emergence of collective dynamics. Here, we report striking collective swimming of bovine sperm in dynamic clusters, enabled by the viscoelasticity of the fluid. Sperm oriented in the same direction within each cluster, and cluster size and cell-cell alignment strength increased with viscoelasticity of the fluid. In contrast, sperm swam randomly and individually in Newtonian (nonelastic) fluids of low and high viscosity. Analysis of the fluid motion surrounding individual swimming sperm indicated that sperm-fluid interaction was facilitated by the elastic component of the fluid. In humans, as well as cattle, sperm are naturally deposited at the entrance to the cervix and must swim through viscoelastic cervical mucus and other mucoid secretions to reach the site of fertilization. Collective swimming induced by elasticity may thus facilitate sperm migration and contribute to successful fertilization. We note that almost all biological fluids (e.g. mucus and blood) are viscoelastic in nature, and this finding highlights the importance of fluid elasticity in biological function.

Published

2017

2. Cooperative roles of biological flow and surface topography in guiding sperm migration revealed by a microfluidic model

Author

Chih-kuan Tung, Florencia Ardon, Mingming Wu, Alyssa G. Fiore, and Susan S. Suarez

Subjects

Male, endocrine system, Reproductive tract, medicine.medical_treatment, Microfluidics, Biomedical Engineering, Bioengineering, Model system, Fertilization in Vitro, Oviducts, Biology, Biochemistry, Article, Mice, Cell Movement, medicine, Animals, reproductive and urinary physiology, Sperm motility, In vitro fertilisation, urogenital system, General Chemistry, Anatomy, Microfluidic Analytical Techniques, Spermatozoa, Sperm, Cell biology, Sperm Motility, Oviduct, Female, Female Reproductive Tract

Abstract

Successful reproduction in mammals requires sperm to swim against a fluid flow and through the long and complex female reproductive tract before reaching the egg in the oviduct. Millions of them do not make it. Despite their clinical importance, the roles played in sperm migration by the diverse biophysical and biochemical microenvironments within the reproductive tract are largely unknown. In this article, we present the development of a double layer microfluidic device that recreates two important biophysical environments within the female reproductive tract: fluid flow and surface topography. The unique feature of the device is that it enables one to study the cooperative roles of fluid flow and surface topography in guiding sperm migration. Using bull sperm as a model system, we found that microfluidic grooves embedded on a channel surface facilitate sperm migration against fluid flow. These findings suggest ways to design in vitro fertilization devices to treat infertility and to develop non-invasive contraceptives that use a microarchitectural design to entrap sperm.

Published

2014

3. Dynamics of Bovine Sperm Interaction with Epithelium Differ Between Oviductal Isthmus and Ampulla

Author

Zarah I. Deutsch, Lian Hu, Susan S. Suarez, Ross D. Markello, Chih-kuan Tung, Mingming Wu, and Florencia Ardon

Subjects

0301 basic medicine, Male, medicine.medical_specialty, endocrine system, animal structures, Connective tissue, Biology, Epithelium, 03 medical and health sciences, Internal medicine, medicine, Cell Adhesion, Animals, 4-Aminopyridine, Ampulla, Sperm motility, reproductive and urinary physiology, Fallopian Tubes, Hyperactivation, urogenital system, Heparin, Seminal Plasma Proteins, Cell Biology, General Medicine, Articles, Sperm, Spermatozoa, Cell biology, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, Reproductive Medicine, Hydrodynamics, Sperm Motility, Oviduct, Cattle, Female, medicine.drug

Abstract

In mammals, many sperm that reach the oviduct are held in a reservoir by binding to epithelium. To leave the reservoir, sperm detach from the epithelium; however, they may bind and detach again as they ascend into the ampulla toward oocytes. In order to elucidate the nature of binding interactions along the oviduct, we compared the effects of bursts of strong fluid flow (as would be caused by oviductal contractions), heparin, and hyperactivation on detachment of bovine sperm bound in vitro to epithelium on intact folds of isthmic and ampullar mucosa. Intact folds of oviductal mucosa were used to represent the strong attachments of epithelial cells to each other and to underlying connective tissue that exist in vivo. Effects of heparin on binding were tested because heparin binds to the Binder of SPerm (BSP) proteins that attach sperm to oviductal epithelium. Sperm bound by their heads to beating cilia on both isthmic and ampullar epithelia and could not be detached by strong bursts of fluid flow. Addition of heparin immediately detached sperm from isthmic epithelium but not ampullar epithelium. Addition of 4-aminopyridine immediately stimulated hyperactivation of sperm but did not detach them from isthmic or ampullar epithelium unless added with heparin. These observations indicate that the nature of binding of sperm to ampullar epithelium differs from that of binding to isthmic epithelium; specifically, sperm bound to isthmic epithelium can be detached by heparin alone, while sperm bound to ampullar epithelium requires both heparin and hyperactivation to detach from the epithelium.

Published

2016

4. Microgrooves and fluid flows provide preferential passageways for sperm over pathogen Tritrichomonas foetus

Author

Florencia Ardon, Lian Hu, Alyssa G. Fiore, Chih-kuan Tung, Susan S. Suarez, Dillon G. Hickman, Robert O. Gilbert, and Mingming Wu

Subjects

Male, media_common.quotation_subject, medicine.medical_treatment, Cattle Diseases, Fertility, Cervix Uteri, Tritrichomonas foetus, Flagellum, Biology, Mammalian reproduction, Human fertilization, medicine, Animals, Sperm motility, reproductive and urinary physiology, Fallopian Tubes, media_common, Multidisciplinary, In vitro fertilisation, Protozoan Infections, urogenital system, Biological Sciences, Abortion, Veterinary, biology.organism_classification, Sperm, Spermatozoa, Cell biology, Immunology, Sperm Motility, Cattle, Female

Abstract

Successful mammalian reproduction requires that sperm migrate through a long and convoluted female reproductive tract before reaching oocytes. For many years, fertility studies have focused on biochemical and physiological requirements of sperm. Here we show that the biophysical environment of the female reproductive tract critically guides sperm migration, while at the same time preventing the invasion of sexually transmitted pathogens. Using a microfluidic model, we demonstrate that a gentle fluid flow and microgrooves, typically found in the female reproductive tract, synergistically facilitate bull sperm migration toward the site of fertilization. In contrast, a flagellated sexually transmitted bovine pathogen, Tritrichomonas foetus, is swept downstream under the same conditions. We attribute the differential ability of sperm and T. foetus to swim against flow to the distinct motility types of sperm and T. foetus; specifically, sperm swim using a posterior flagellum and are near-surface swimmers, whereas T. foetus swims primarily via three anterior flagella and demonstrates much lower attraction to surfaces. This work highlights the importance of biophysical cues within the female reproductive tract in the reproductive process and provides insight into coevolution of males and females to promote fertilization while suppressing infection. Furthermore, the results provide previously unidentified directions for the development of in vitro fertilization devices and contraceptives.

Published

2015

5. Cryopreservation Increases Coating of Bull Sperm by Binder of SPerm Proteins BSP3 and BSP5

Author

Florencia Ardon and Susan S. Suarez

Subjects

Andrology, Reproductive Medicine, Coating, engineering, Cell Biology, General Medicine, engineering.material, Biology, Sperm, Cryopreservation

Published

2012